Multiple glazed window units



April 28, 1964 J. BENNETT ETAL 3,131,047

MULTIPLE GLAZED WINDOW UNITS Original Filed June 16, 1958 4 Sheets-Sheet 1 Alforneys April 28, 1964 J. BENNETT ETAL MULTIPLE GLAzEn wINDow UNITS Original Filed June 16, 1958 4 Sheets-Shea?I 2 April 28, 1964 u. BENNETT ETAL MULTIPLE GLAZED WINDOW UNITS 4 Sheets-Sheet 5 Original Filed June 16, 1958 Inventors I @Qi By QWwQ/@wz 7%? A n wm wa@ ttorne yg April 28, 1964 J. DENNETT ETAL MULTIPLE GLAZED WINDOW UNITS original Filed June 1e, 1958 4 Sheets-Sheet 4 A ttorneyg United States Patent Claims priori application Great Brimin June 1S, 1957 i enna. (eres-152) This application is divided out of our co-pending appli cation Serial Number 742,264, filed on June 16, 1958.

This invention relates to multiple glazed units, eg., window units and has for its main object to provide apparatus for manufacturing a multiple welded unit of parallel glass panels separated by air spaces.

According to the invention there is provided apparatus for applying welding heat to the edges of an assembly of parallel fiat glass panes intended to constitute a multiple glazed unit, the panes being spaced near their edges by marginal spacer elements of glass arranged to form an open frame of similar coefficient of thermal expansion to that of the panes, comprising a structure including a support for the assembly, a profile burner for applying welding heat to the edges of the assembly mounted on the said structure, actuating means carried by the structure to effect relative movement between the said support and the burner to locate the assembly within the profile burner, a pressure member in the form of a marginal frame of predetermined weight, for engaging the upper surface and applying the desired pressure during the welding of the panes and spacer elements carried by the structure, means for lowering and raising the frame to and from the assembly, and a sheet of heat insulating material for the top pane extending across the frame.

Preferably the structure includes rails and a carriage running on the rails, the carriage including shafts on which the support for the assembly is slidably carried, an oven for preheating the assembly, said rails extending from said oven under the burner whereby the assembly can be moved from the oven to the burner to effect welding, the burner being vertically adjustable to be lowered about or raised from an assembly supported on the shafts, whereby said assembly can be subjected to Welding heat after the marginal frame has been lowered to provide the desired pressure on the assembly.

In order that the invention may be clearly understood a preferred embodiment thereof will now be described, by way of example, with reference to the accompanying drawings, in which:

FIGURE 1 is a section through an assembly of glass panes, spacers and a marginal frame,

FIGURE 2 is a side elevation, partly cut away, of apparatus according to the invention for applying welding heat to the edge of the assembly,

FIGURE 3 is an end elevation, partly cut away of the apparatus,

FIGURE 4 is a plan view of the apparatus shown in FIGURES 2 and 3,

FIGURE 5 shows, in plan view, an ancillary structure for use in displacing an assembly of glass panes and spacers,

FIGURE 6 is a part sectional elevation taken on line VI-VI of FIGURE 5, and

FIGURE 7 shows diagrammatically a sequence of operations for producing multiple glazed units employing apparatus according to the invention.

Referring to FIGURE 1 of the drawings, glass panes 1 which are to be incorporated in a multiple glazed urnt intended to be employed as a Window unit are stacked for ICC welding on a support 2. The panes 1, of which three are are shown, are maintained in desired spaced relationship by an interposed set of marginal spacer elements 3 of glass of substantially the same length as the edges of the panes and of similar coefficient of thermal kexpansion to that of the panes, thus each set of elements forms a continuous spacing frame of glass between a pair of panes. In this way no harmful permanent stresses will be set up in the welded unit as a result of differences in thermal expansion and contraction between the panes 1 and the elements 3 when welded together. The spacer elements 3 may be cut obliquely at their ends to form mitred joints or may have square ends so that the one end of each element meets the inner side ot another at each corner of the glass frame.

Moreover the glass frame may be constituted by opposed pairs of elements of different lengths, the ends of the smaller pair meeting the inner sides of the other pair.

Referring now to FIGURES 2 to 4 of the drawings, apparatus for applying welding heat to an assembly of glass panes intended to constitute a multiple glazed unit according to the invention comprises a structure which includes the support 2. The support 2 consists of a flat table of heat-resisting steel, cast iron, refractory material such as sillimanite tiles, or insulating material such as asbestos, or graphite.

The support 2 is located on shafts 4 which are attached to a carriage 5 which latter is provided with wheels 6 which engage the upper and lower surfaces of rails 7 to prevent tilting. The rails 7 are mounted on a framework comprising posts 8, and longitudinal `beams 9, transverse beams 16 and transverse angle bars 11. The longitudinal beams 9 extend horizontally under an oven 12, and the rails 7 extend under a welding station 13 to an annealing lehr 14. The beams 9 support an oven 12 and extend under a Welding stationy generally indicated at 13, and the rails 7 extend into the welding station and in the opposite direction to the oven 12, that is, to an annealing lehr 14, so that an assembly of panes and spacer elements on a support 2 may be transported on the shafts 4 into the oven 12, thence to the welding station 13 and after the welding operation is nished, transferred into the lehr 14.

Movement of the carriage 5 and shafts 4 is effected by an endless chain 15 the ends of which are connected to a tensioning member 16 mounted on the carriage. The chain passes over toothed idler wheels 17, 18 and y19, and over toothed drive Wheels 2@ which are fixed to a shaft 21 and manually rotated by a handle 22.

The oven 12 may be heated either electrically or by gas, and the assembly is heated in the oven to a'temperature which is not high enough to cause the panes 1 to sag or become deformed, but is high enough to allow the subse quent heating of the edges of the assembly at a high Welding temperature without setting up excessive mechanical stresses in the glass which would ultimately break the glass. For ordinary lime-soda-silica Window glass panes, or plate glass, which are used for the manufacture of multiple glazed window units according to the invention, a suitable oven temperature is about 500 C.

When the assembly has attained thertemperature of the oven the carriage 5 is moved along the rails 7 until the assembly is located at the welding station 13.

At the welding station 13 is erected a framework consisting of corner posts 23, attached to the beams 9 by gussets Z4, and beams 25 and 26 connecting the upper ends of the posts 23. This framework supports a profile burner 27 which consists of four sections, corresponding to the four edges of an assembly when it is located at the welding station, thus Welding heat may be applied to the edges of the assembly so positioned.

The burners are mounted on the underside of a chassis 28, which at each corner is provided with a wheel 29 which runs on a guide plate 30 carried on the adjacent post 23 at the weldng station, and with the chassis 2S can be raised from or lowered to the support 2 carrying the glass assembly, by actuating means which includes a pneumatic double acting cylinder 31 the two operative ends of which are connected by flexible piping 32 to a foot control valve 33. A piston rod 34 is connected to the double acting piston, not shown, within the cylinder and is pinjointed to one end of a lever 35, the other end of which is formed as a boss which is itted to a shaft 36 to which it is keyed 'or otherwise secured so as to impart rotational movement thereto. Double-sheaf pulleys 37 are mounted on the shaft 36, and the ends of two ropes 38, 39 are fixed to each pulley 37 by clamps 40. The other ends of ropes 38, 39 are connected to the burner chassis 2S, as indicated at 41, and the ropes 39 pass over pulleys 42 so that the burner chassis 28 is suspended at four points. Movement of the piston in the cylinder 31 under control of the control valve 33, which is connected to a compressed-air line 43, effects a regulated vertical reciprocation of the prole burners with respect to the assembly on the support 2. Each burner 27 is supplied with a gas/air mixture through a pipe 44 connected to a supply 45.

Each of the burners 27 has in its face which is opposite an edge of the assembly a slot to which is supplied a mixture of combustible gas and air in known manner; and it provides a sheet of iame which is continuous in a horizontal direction for applying welding heat to the adjacent edges of the assembly located at the welding station. In order to obtain uniform distribution of welding heat across the edges of the assembly, the burners are reciprocated vertically, under the control of the pedal 33, through a distance suiiicient to cause the flames to play equally over the whole height of the edges of the assembly. This is of particular importance in the manufacture of multiple glazed units consisting of three or more panes.

Before the flames from the burners 27 are applied to the edges of the assembly a movable interiorly open marginal frame 46, which may be water cooled, is lowered on to the marginal part of the assembly, where it shields the centre part of the top pane from the heat of the welding ames. The weight of the frame 46 together with any additional downward force that may be applied to it, for example by the addition of weights as hereinafter described, is such that it holds together the assembly of panes 1 and spacer elements 3 so that they do not become relatively displaced during the welding operation and also prevents any lifting of the corners of the panes that might otherwise occur as a result of the unsupported weight of their centre portions. The clamping effect of the weight of the continuous marginal frame upon the edges and corners of the assembly also helps to minimise sagging of the centre portions of the panes as a result of their own unsupported weight.

.terial such as asbestos millboard which extends across the frame and conserves the heat in the top pane obtained from the oven and so serves to maintain the temperature of that part of the top pane which is within the frame 46, at substantially the temperature of the oven 12. The heat in the other pane or panes of the assembly is maintained by the hot top pane and by the insulating effect of the support 2. Thus, the temperature of the centre part of each pane during the application of welding heat to the edges is maintained at a level above that at which harmful strains can be induced in the glass.

The frame 46 is detachably supported by rods 48 from a second chassis 49, see FIGURE 2, which at each corner is provided with a wheel 50 which runs on a guide plate 51 carried on the adjacent post 23 at the welding station. A link 52 is pivotally connected to each side of the chassis 49, as indicated at 53, and to one end of a lever 54. The two levers 54 are mounted on a shaft 55 to which is secured a lever arm 56, which is disposed for manual operation to raise or lower the chassis 49, and thus the frame 46. The weight of the frame 45 and the chassis 49 is balanced by counterweights 57 attached to ropes 58 which pass over pulleys 59, 60, and are connected to the links 52.

After the glass assembly has been heated in the oven, as already described, the assembly or glass panes 1 and spacer elements 3 on the support 2 is moved to proper location at the welding station i3 by rotating the handle 22, and the lever 36 is actuated manually to lower the marginal frame 46 on to the top pane of the assembly. The frame 46 then lies on the entire peripheral edge of the top pane l of the assembly. The dames from the profile burners 27 are then played on the edges of the assembly. The intensity of the flame which is applied tirst of all is lower than that which gives the normal welding temperature, and then the intensity of the flame is progressively increased until a flame giving a welding temperature is produced, so that the edges heated to fusion temperature, for example 1,200 C. to l,250 C. on the outer surfaces of the edges in Contact with the ames. During heating, the marginal frame 46 is pressed down on to the assembly by manual elort applied to the lever 56. In practice, this effort may be relaxed after about 30 seconds have elapsed from the beginning of the application of the ilames, so that a depression is not produced in the fused glass by the pressure of the frame. The frame is retained in contact with the top pane, however, until welding operation is completed. The frame may be provided with pins on which weights may be located to regulate the downward pressure exerted by the frame 46. Alternatively the frame 46 may be interchanged for a frame of a ditterent weight.

The panes 1t and spacer elements 3 are thus fused together from their outer edges inwards, and with the edge temperature at 1,200 to l,250 C., the inner limit of the Weld reaches a temperature of about 850 C. to 900 C., thus a weld which extends inwards of the assembly is obtained and the assembly of panes and interposed elements which become spacer frames are thus welded into a unit.

During the welding operation a large difference in temperature exists between the edges of the assembly and the remainder of the area of each pane, and in order to avoid excessive stresses in the welded unit during annealing the edges are cooled to a temperature about C. to 150 C. above the temperature which has been maintained in the remainder of the assembly, that is to about 600 C. to 650 C. This may be done at the welding station by reducing the intensity of the burner flame so that the flame playing on the edges of the unit becomes a llame of lower intensity than that which gives the normal welding temperature, and under this mild heating the temperature of the edges falls at a safe rate to the temperature of 600 C. to 650 C. The marginal frame 46 is then lifted from the assembly, and the welded unit is moved forward on the support 2 into an annealing lehr indicated at 14, where the rate of cooling is controlled in known manner.

The lehr may accommodate the welded units in a horizontal position on their supports 2, or if more convenient the units may be supported in a vertical position during their travel through the lehr.

When the panes 1 and spacer elements 3 are being prepared for assembly on a support 2, provision is made for vents which permit access to the interspace between adjacent panes, and through which the interspace is flushed with dry air after the assembly has been welded into a unit and has been annealed and cooled.

Usually each interspace requires two vents which may be situated anywhere in the marginal part of the unit: but each interspace in units which are not larger than 30 inches by 24 inches, for example, can be flushed effectively through a single vent. It is convenient for Ythat when the spacer frame is produced by the welding a vent hole is formed through the frame at the corner of each interspace. Each vent may be formed adjacent a pane, that is to say not in the middle of the thickness of the spacer frame.

Patterned as Well as transparent glass panes can be welded to spacer frames in accordance with the invention, with the patterned surfaces against the frames. The pattern may for example be prismatic, rough cast, morocco or reeded, and patterned or obscured multiple glazed units so made have the advantage that the external surfaces are smooth and easily kept clean.

A sheet of material containing libres, for example glass libres can also be incorporated, giving light diffusion and increased heat insulation.

Where the assembly of panes and spacer elements coming from the oven 12 is less small size that the frame 46, the assembly can be welded in two stages by suitably disposing the assembly on the support 2 and then advancing the assembly from the oven to a position at the welding station 13 in which two contiguous edges of the assembly underlie contiguous edges of the frame 46. The frame 46 can then be lowered, and contiguous burners alongside the two edges of the assembly to be welded, operated to produce the desired welding heat, while the gas supply to the other burners may be adjusted to maintain the heat in the assembly given to it by the preheating in the oven 12.

After the welding of the two contiguous edges, the frame 46 can be raised and the assembly moved diagonally of the frame 46 so that the opposite two contiguous edges of the assembly are brought intol register with the two other edges of the frame 46. The latter is then lowered and the welding operation effected under exactly the same conditions which are described for the first two contiguous edges of the assembly.

This manner of operation can be conveniently eected by erecting at the side of the rails 7 an ancillary structure, shown in plan view in FIGURE 5, for use in displacing an assembly of glass panes and spacer elements. The ancillary structure is disposed at the requisite level to displace the assembly with respect to the frame 46 in order to accomplish the two stage welding to which reference has just been made. To this end a rod 61 of rectangular cross-section is mounted to be slidable in bearings 62, which in turn are slidably carried on rods 63, supported on parallel angle bars 64, carried on posts 65 which may be bolted to the frame of the apparatus in any suitable manner. The rod 61 carries a pusher plate 66 which can be advanced or retracted from the frame 46 by axially displacing the rod 61 through the bearings 62. Additionally, the rod 61 can be moved laterally by sliding the bearings 62 along the rods 63.

With such an arrangement adjacent to the welding station an assembly can be moved from the oven to the Welding station on the support 2, by actuating the handle 22 which produces the desired longitudinal displacement of the assembly with respect to the frame 46 and if necessary the rod 61 can be actuated to displace the assembly across the support so as to produce the desired registration with the burners 27. After the welding operation has been performed on two contiguous edges and after the frame 46 has been retracted, the handle 22 can be again actuated to longitudinally displace the assembly until the transverse edge, which has not been welded, is brought into registration with the corresponding edge of the frame 46. Thereafter the pusher 61 is actuated until the other of the two contiguous edges of the assembly is brought into registration with the other edge of the frame 46. The welding operation is then effected on the other two contiguous edges and frame 46 retracted.

The welded unit may remain in the last position of welding or may even be retracted backwards by reverse movement of the handle 17 so that the assembly may be cooled whilst located substantially symmetrically within the heated atmosphere produced by the burners, and as previously mentioned the cooling may be effected by reducing the intensity of the burner llame so that lthe ame is of lower intensity than that which gives the normal welding temperature.

In the construction described oven 12 is provided with one door67, which can be raised and .lowered by moving the weight 68, which is connected with the door by a rope 69 passing over pulleys 7 0 and 71.

In such construction the carriage 5 after being loaded on the other side of the welding station to the oven 12, can be advanced through the welding station into the oven when the door 67 is raised and then returned to the welding station after the assembly has been suiciently heated.

In accordance with the invention the oven may be provided with a similar door at each end and the rails 7 extended through the oven so that the carriage 5 can be advanced through the oven and loaded on the side of the oven away from the welding station, and then drawn into the oven for the pre-heating operation before being further advanced in the same direction to the welding station.

In such arrangement the method of carrying out the present invention involves loading the carriage, advancing to the pre-heating oven 12 and then closing the door at the entry end of the oven. The assembly then remains in the oven while it is pre-heated and the door 67 is raised to permit continued advance of the assembly to the welding station, where welding and the desired degree of cooling are effected before the welded unit is advanced to the annealing lehr.

When the unit has been cooled at the welding station so as to be ready to be put into the annealing lehr the carriage is moved to advance the unit from the welding station to a ramp 72, which may be erected on the framework carrying the rails 7 and on to which the unit is pushed from the carriage 5, the ramp 72 leading to the usual conveying rollers indicated at 73 in the annealing lehr 14, by which the unit is transported through the stages of annealing and cooling. This sequence of events is diagrammatically illustrated in FIGURE 7 of the drawings, and in order that the continuous operation may be effected without much loss of heat from the oven, the oven door at the entry end and the door 67 may be provided with slots at the bottom edge through which pass the shafts 4 of the carriage which are suitably elongated, so that the shafts may be loaded at the entry side of the oven.

To minimize loss of heat from an assembly at the welding station to either the support 2 or to the overlying frame 46, heat insulating media may be interposed between the assembly and the support and between the assembly and the overlying frame, such insulating media preferably being in the form of asbestos sheet material.

As clearly shown in FIGURE l, the frame 46 which in the construction `shown has an outside dimension corresponding to the profile of the assembly, may be rabbeted as indicated at 74 opposite to the burner so as to reduce the area of conduction between the assembly and the frame and to prevent loss of heat from the assembly by radiation to the frame.

An advantage of reducing the area of conduction between the assembly and the frame is that a greater intensity of pressure from the weight of the frame is imposed on the assembly, and if heat insulating material is located between the assembly and the frame and the support maximum insulating against heat losses is obtained.

Clearly the spacer elements used may be fused together to form a, frame, or in pairs to form half frames .before being interposed between the associated panes of an assembly.

By means of the present invention multiple glazed units, including double glazed units, including more than two panes are readily assembled, hence efficient insulating windows for very low-temperature applications such as in self-service, deep-freeze cabinets in shops can be readily manufactured, as Well as multiple glazed window vunits for use for example in railway vehicles, aircraft, or

buildings.

We claim:

Apparatus for producing a multiple glazed unit by welding an assembly of parallel flat glass panes spaced near their edges by marginal spacer elements of glass arranged to form an open marginal unit of similar coelllcient of thermal expansion to that of the panes, comprising an overhead support structure, a llat support table of heat-resisting material for supporting the glass assembly, means for moving said table beneath the support structure, a profile burner mounted on said support structure and adapted to surround the glass assembly and the support table and thereby apply welding heat to the edges of an sembly on the table, actuating means mounted on the support structure and connected to the burner and operable to lower and raise the burner relative to an assembly on the table under the support structure, a continuous marginal frame of predetermined weight depending from the support structure and defining an interior opening therein, means on said support structure adapted to raise and lower the frame in a path surrounded by that of said profile burner, said marginal frame being adapted to engage the top pane of an assembly over the marginal spacer elements only leaving the central part of the pane free thereby applying a desired pressure confined to the margins only ofthe assembly during the welding operation, and a sheet of heat-insulating material mounted on and closing the central part of the marginal frame at an upper portion of said frame.

References Cited in the file of this patent UNITED STATES PATENTS 2,034,925 Slayter et al. Mar. 24, 1936 2,398,525 Gray Apr, '16, 1946 2,761,248 Cowley et al. Sept. 4, 1956 2,761,249 Olson et al. Sept. 4, 1956 2,876,596 Kessler Mar. 10, 1959 2,970,405 Giften Feb. 7, 1961 FOREIGN PATENTS 433,489 Great Britain Aug, 15, 1935 514,656 Great Britain Nov. '14, 1939 

